Air will flow from areas of high pressure to areas of low pressure.
Pressure = force/area.
So in this context, air pressure is the force the particles in that area exert on the space around them (let's imagine they're in a box). As air particles whizz around, they will collide with the edges of the box, so bouncing off and changing direction. This direction change involves a lot of acceleration (though speed may be the same, velocity (which is speed in a specific DIRECTION) will be very different.
Physics tells us F=MA. Therefore, this acceleration will equate to a force on the outside world. This force will therefore be proportional to the number of particles in the area (more particles = more area).
So, if an area of high pressure has lots of particles, there will be a spreading out of these particles to areas of low particles (diffusion, and energy's natural tendency to spread out). Alternatively, think of it as particles in the high pressure area pushing against the particles from the low area, and they're pushing force being greater, so they win!
There you have a very long winded answer for why air moves from high pressure to low pressure!
No, it's actually the other way around.
Air moves from High Pressure to Low Pressure.
Air move from hiehg pressure to low pressure.
It goes from high pressure to low pressure.
Air flows from high pressure to low pressure, yes.
i think air flows higher from an area
Tide = Flow of kinetic energy from higher ground to lower ground Wind = Flow of kinetic energy from higher pressure to lower pressure Electricity = Flow of electrical energy (transfer of kinetic energy) from higher voltage to ground or low voltage.
The higher the viscosity, the lower the flow rate.
to reduced the back flow of water because when water comes out from the runner the pressure is lower then the atmospheric pressure due to this back flow is generated.
This answer depends on who you are asking some people say it flows from negative to positive and others say its the other way around but really it doesn't matter that much because normal 60Hz AC changed direction 60 times a sec
Nature always tries to come to an state of equilibrium. Water flows from a higher to a lower level. Electricity flows from a higher potential to a lower potential. Thus heat is transferred from a warmer to a colder area until an equilibrium is reached.
Electronsflow from areas of lower to higher voltage, while Current flow from areas higher to lower voltage.
at any altitude, fluids flow from areas of higher pressure to some areas of lower pressure.
The relationship between air pressure and windis that air from areas of higher pressure flow to areas of lower pressure, creating wind.
Were liquid is more, you have more pressure. Liquids, and gasses flow from higher pressure areas to lower pressure areas, like people in a bus. If it's crowded is a place, they go were it's less crowded.
Tide = Flow of kinetic energy from higher ground to lower ground Wind = Flow of kinetic energy from higher pressure to lower pressure Electricity = Flow of electrical energy (transfer of kinetic energy) from higher voltage to ground or low voltage.
Tide = Flow of kinetic energy from higher ground to lower ground Wind = Flow of kinetic energy from higher pressure to lower pressure Electricity = Flow of electrical energy (transfer of kinetic energy) from higher voltage to ground or low voltage.
No, it is not true. An electrical current (which is a flow of electrons) can only flow from a higher pressure state (higher voltage) to a lower pressure state (lower voltage).
Water, like any fluid, flows from where its pressure is higher to where its lower.
Air pressure is the type of energy that causes all winds and breezes. When horizontal differences in parcels of air occur, it generates wind. The flow of the air travels from areas of higher pressure to areas of lower pressure.
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A hydraulic ram is a cyclic water pump which utilises hydropower. It can be used as a low head hydropower source in order to generate electricity or it can be used to pump water from a low source to a higher destination. A hydraulic ram takes in water at one pressure and flow rate, and outputs it at a higher pressure and lower flow rate. It is sometimes used in remote areas where there is a source of low pressure and a need to pump water to a higher elevation than the source.
Fluids flow from areas of high pressure to areas of low pressure.